/* --------------------------------------------------------------------- * * +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd is copyright (C) 2002-2006 ChatSpike-Dev. * E-mail: * * * * Written by Craig Edwards, Craig McLure, and others. * This program is free but copyrighted software; you can redistribute * it and/or modify it under the terms of the GNU General Public * License as published by the Free Software Foundation, version 2 * (two) ONLY. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * --------------------------------------------------------------------- */ #include #include "inspircd_config.h" #include "inspircd.h" #include "configreader.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef THREADED_DNS #include #endif #include "users.h" #include "ctables.h" #include "globals.h" #include "modules.h" #include "dynamic.h" #include "wildcard.h" #include "message.h" #include "mode.h" #include "commands.h" #include "xline.h" #include "inspstring.h" #include "dnsqueue.h" #include "helperfuncs.h" #include "hashcomp.h" #include "socketengine.h" #include "userprocess.h" #include "socket.h" #include "typedefs.h" #include "command_parse.h" InspIRCd* ServerInstance; extern ModuleList modules; extern FactoryList factory; std::vector module_sockets; std::vector local_users; extern int MODCOUNT; extern char LOG_FILE[MAXBUF]; int iterations = 0; insp_sockaddr client, server; socklen_t length; extern InspSocket* socket_ref[MAX_DESCRIPTORS]; time_t TIME = time(NULL), OLDTIME = time(NULL); // This table references users by file descriptor. // its an array to make it VERY fast, as all lookups are referenced // by an integer, meaning there is no need for a scan/search operation. userrec* fd_ref_table[MAX_DESCRIPTORS]; Server* MyServer = new Server; ServerConfig *Config = new ServerConfig; user_hash clientlist; chan_hash chanlist; servernamelist servernames; char lowermap[255]; void AddServerName(const std::string &servername) { log(DEBUG,"Adding server name: %s",servername.c_str()); if(find(servernames.begin(), servernames.end(), servername) == servernames.end()) servernames.push_back(servername); /* Wasn't already there. */ } const char* FindServerNamePtr(const std::string &servername) { servernamelist::iterator iter = find(servernames.begin(), servernames.end(), servername); if(iter == servernames.end()) { AddServerName(servername); iter = --servernames.end(); } return iter->c_str(); } bool FindServerName(const std::string &servername) { return (find(servernames.begin(), servernames.end(), servername) != servernames.end()); } void Exit(int status) { if (Config->log_file) fclose(Config->log_file); send_error("Server shutdown."); exit (status); } void InspIRCd::Start() { printf("\033[1;32mInspire Internet Relay Chat Server, compiled %s at %s\n",__DATE__,__TIME__); printf("(C) ChatSpike Development team.\033[0m\n\n"); printf("Developers:\t\t\033[1;32mBrain, FrostyCoolSlug, w00t, Om, Special\033[0m\n"); printf("Others:\t\t\t\033[1;32mSee /INFO Output\033[0m\n"); printf("Name concept:\t\t\033[1;32mLord_Zathras\033[0m\n\n"); } void Killed(int status) { if (Config->log_file) fclose(Config->log_file); send_error("Server terminated."); exit(status); } void Rehash(int status) { WriteOpers("Rehashing config file %s due to SIGHUP",CleanFilename(CONFIG_FILE)); fclose(Config->log_file); OpenLog(NULL,0); Config->Read(false,NULL); FOREACH_MOD(I_OnRehash,OnRehash("")); } void InspIRCd::SetSignals() { signal (SIGALRM, SIG_IGN); signal (SIGHUP, Rehash); signal (SIGPIPE, SIG_IGN); signal (SIGTERM, Exit); signal (SIGSEGV, Error); } bool InspIRCd::DaemonSeed() { int childpid; if ((childpid = fork ()) < 0) return (ERROR); else if (childpid > 0) { /* We wait a few seconds here, so that the shell prompt doesnt come back over the output */ sleep(6); exit (0); } setsid (); umask (007); printf("InspIRCd Process ID: \033[1;32m%lu\033[0m\n",(unsigned long)getpid()); rlimit rl; if (getrlimit(RLIMIT_CORE, &rl) == -1) { log(DEFAULT,"Failed to getrlimit()!"); return false; } else { rl.rlim_cur = rl.rlim_max; if (setrlimit(RLIMIT_CORE, &rl) == -1) log(DEFAULT,"setrlimit() failed, cannot increase coredump size."); } return true; } void InspIRCd::WritePID(const std::string &filename) { std::ofstream outfile(filename.c_str()); if (outfile.is_open()) { outfile << getpid(); outfile.close(); } else { printf("Failed to write PID-file '%s', exiting.\n",filename.c_str()); log(DEFAULT,"Failed to write PID-file '%s', exiting.",filename.c_str()); Exit(0); } } std::string InspIRCd::GetRevision() { return REVISION; } void InspIRCd::MakeLowerMap() { // initialize the lowercase mapping table for (unsigned int cn = 0; cn < 256; cn++) lowermap[cn] = cn; // lowercase the uppercase chars for (unsigned int cn = 65; cn < 91; cn++) lowermap[cn] = tolower(cn); // now replace the specific chars for scandanavian comparison lowermap[(unsigned)'['] = '{'; lowermap[(unsigned)']'] = '}'; lowermap[(unsigned)'\\'] = '|'; } InspIRCd::InspIRCd(int argc, char** argv) { this->Start(); module_sockets.clear(); init_dns(); this->startup_time = time(NULL); srand(time(NULL)); log(DEBUG,"*** InspIRCd starting up!"); if (!FileExists(CONFIG_FILE)) { printf("ERROR: Cannot open config file: %s\nExiting...\n",CONFIG_FILE); log(DEFAULT,"main: no config"); printf("ERROR: Your config file is missing, this IRCd will self destruct in 10 seconds!\n"); Exit(ERROR); } *LOG_FILE = 0; if (argc > 1) { for (int i = 1; i < argc; i++) { if (!strcmp(argv[i],"-nofork")) { Config->nofork = true; } else if(!strcmp(argv[i],"-debug")) { Config->forcedebug = true; } else if(!strcmp(argv[i],"-nolog")) { Config->writelog = false; } else if (!strcmp(argv[i],"-wait")) { sleep(6); } else if (!strcmp(argv[i],"-nolimit")) { printf("WARNING: The `-nolimit' option is deprecated, and now on by default. This behaviour may change in the future.\n"); } else if (!strcmp(argv[i],"-logfile")) { if (argc > i+1) { strlcpy(LOG_FILE,argv[i+1],MAXBUF); printf("LOG: Setting logfile to %s\n",LOG_FILE); } else { printf("ERROR: The -logfile parameter must be followed by a log file name and path.\n"); Exit(ERROR); } } } } strlcpy(Config->MyExecutable,argv[0],MAXBUF); this->MakeLowerMap(); OpenLog(argv, argc); this->stats = new serverstats(); Config->ClearStack(); Config->Read(true,NULL); CheckRoot(); this->ModeGrok = new ModeParser(); this->Parser = new CommandParser(); AddServerName(Config->ServerName); CheckDie(); stats->BoundPortCount = BindPorts(true); for(int t = 0; t < 255; t++) Config->global_implementation[t] = 0; memset(&Config->implement_lists,0,sizeof(Config->implement_lists)); printf("\n"); this->SetSignals(); if (!Config->nofork) { if (!this->DaemonSeed()) { printf("ERROR: could not go into daemon mode. Shutting down.\n"); Exit(ERROR); } } /* Because of limitations in kqueue on freebsd, we must fork BEFORE we * initialize the socket engine. */ SE = new SocketEngine(); /* We must load the modules AFTER initializing the socket engine, now */ return; } std::string InspIRCd::GetVersionString() { char versiondata[MAXBUF]; #ifdef THREADED_DNS char dnsengine[] = "multithread"; #else char dnsengine[] = "singlethread"; #endif if (*Config->CustomVersion) { snprintf(versiondata,MAXBUF,"%s %s :%s",VERSION,Config->ServerName,Config->CustomVersion); } else { snprintf(versiondata,MAXBUF,"%s %s :%s [FLAGS=%lu,%s,%s]",VERSION,Config->ServerName,SYSTEM,(unsigned long)OPTIMISATION,SE->GetName().c_str(),dnsengine); } return versiondata; } char* InspIRCd::ModuleError() { return MODERR; } void InspIRCd::EraseFactory(int j) { int v = 0; for (std::vector::iterator t = factory.begin(); t != factory.end(); t++) { if (v == j) { factory.erase(t); factory.push_back(NULL); return; } v++; } } void InspIRCd::EraseModule(int j) { int v1 = 0; for (std::vector::iterator m = modules.begin(); m!= modules.end(); m++) { if (v1 == j) { DELETE(*m); modules.erase(m); modules.push_back(NULL); break; } v1++; } int v2 = 0; for (std::vector::iterator v = Config->module_names.begin(); v != Config->module_names.end(); v++) { if (v2 == j) { Config->module_names.erase(v); break; } v2++; } } void InspIRCd::MoveTo(std::string modulename,int slot) { unsigned int v2 = 256; for (unsigned int v = 0; v < Config->module_names.size(); v++) { if (Config->module_names[v] == modulename) { // found an instance, swap it with the item at MODCOUNT v2 = v; break; } } if ((v2 != (unsigned int)slot) && (v2 < 256)) { // Swap the module names over Config->module_names[v2] = Config->module_names[slot]; Config->module_names[slot] = modulename; // now swap the module factories ircd_module* temp = factory[v2]; factory[v2] = factory[slot]; factory[slot] = temp; // now swap the module objects Module* temp_module = modules[v2]; modules[v2] = modules[slot]; modules[slot] = temp_module; // now swap the implement lists (we dont // need to swap the global or recount it) for (int n = 0; n < 255; n++) { char x = Config->implement_lists[v2][n]; Config->implement_lists[v2][n] = Config->implement_lists[slot][n]; Config->implement_lists[slot][n] = x; } } else { log(DEBUG,"Move of %s to slot failed!",modulename.c_str()); } } void InspIRCd::MoveAfter(std::string modulename, std::string after) { for (unsigned int v = 0; v < Config->module_names.size(); v++) { if (Config->module_names[v] == after) { MoveTo(modulename, v); return; } } } void InspIRCd::MoveBefore(std::string modulename, std::string before) { for (unsigned int v = 0; v < Config->module_names.size(); v++) { if (Config->module_names[v] == before) { if (v > 0) { MoveTo(modulename, v-1); } else { MoveTo(modulename, v); } return; } } } void InspIRCd::MoveToFirst(std::string modulename) { MoveTo(modulename,0); } void InspIRCd::MoveToLast(std::string modulename) { MoveTo(modulename,MODCOUNT); } void InspIRCd::BuildISupport() { // the neatest way to construct the initial 005 numeric, considering the number of configure constants to go in it... std::stringstream v; v << "WALLCHOPS WALLVOICES MODES=" << MAXMODES << " CHANTYPES=# PREFIX=(ohv)@%+ MAP MAXCHANNELS=" << MAXCHANS << " MAXBANS=60 VBANLIST NICKLEN=" << NICKMAX-1; v << " CASEMAPPING=rfc1459 STATUSMSG=@%+ CHARSET=ascii TOPICLEN=" << MAXTOPIC << " KICKLEN=" << MAXKICK << " MAXTARGETS=" << Config->MaxTargets << " AWAYLEN="; v << MAXAWAY << " CHANMODES=b,k,l,psmnti FNC NETWORK=" << Config->Network << " MAXPARA=32"; Config->data005 = v.str(); FOREACH_MOD(I_On005Numeric,On005Numeric(Config->data005)); } bool InspIRCd::UnloadModule(const char* filename) { std::string filename_str = filename; for (unsigned int j = 0; j != Config->module_names.size(); j++) { if (Config->module_names[j] == filename_str) { if (modules[j]->GetVersion().Flags & VF_STATIC) { log(DEFAULT,"Failed to unload STATIC module %s",filename); snprintf(MODERR,MAXBUF,"Module not unloadable (marked static)"); return false; } /* Give the module a chance to tidy out all its metadata */ for (chan_hash::iterator c = chanlist.begin(); c != chanlist.end(); c++) { modules[j]->OnCleanup(TYPE_CHANNEL,c->second); } for (user_hash::iterator u = clientlist.begin(); u != clientlist.end(); u++) { modules[j]->OnCleanup(TYPE_USER,u->second); } FOREACH_MOD(I_OnUnloadModule,OnUnloadModule(modules[j],Config->module_names[j])); for(int t = 0; t < 255; t++) { Config->global_implementation[t] -= Config->implement_lists[j][t]; } /* We have to renumber implement_lists after unload because the module numbers change! */ for(int j2 = j; j2 < 254; j2++) { for(int t = 0; t < 255; t++) { Config->implement_lists[j2][t] = Config->implement_lists[j2+1][t]; } } // found the module log(DEBUG,"Deleting module..."); this->EraseModule(j); log(DEBUG,"Erasing module entry..."); this->EraseFactory(j); log(DEBUG,"Removing dependent commands..."); Parser->RemoveCommands(filename); log(DEFAULT,"Module %s unloaded",filename); MODCOUNT--; BuildISupport(); return true; } } log(DEFAULT,"Module %s is not loaded, cannot unload it!",filename); snprintf(MODERR,MAXBUF,"Module not loaded"); return false; } bool InspIRCd::LoadModule(const char* filename) { char modfile[MAXBUF]; #ifdef STATIC_LINK strlcpy(modfile,filename,MAXBUF); #else snprintf(modfile,MAXBUF,"%s/%s",Config->ModPath,filename); #endif std::string filename_str = filename; #ifndef STATIC_LINK #ifndef IS_CYGWIN if (!DirValid(modfile)) { log(DEFAULT,"Module %s is not within the modules directory.",modfile); snprintf(MODERR,MAXBUF,"Module %s is not within the modules directory.",modfile); return false; } #endif #endif log(DEBUG,"Loading module: %s",modfile); #ifndef STATIC_LINK if (FileExists(modfile)) { #endif for (unsigned int j = 0; j < Config->module_names.size(); j++) { if (Config->module_names[j] == filename_str) { log(DEFAULT,"Module %s is already loaded, cannot load a module twice!",modfile); snprintf(MODERR,MAXBUF,"Module already loaded"); return false; } } ircd_module* a = new ircd_module(modfile); factory[MODCOUNT+1] = a; if (factory[MODCOUNT+1]->LastError()) { log(DEFAULT,"Unable to load %s: %s",modfile,factory[MODCOUNT+1]->LastError()); snprintf(MODERR,MAXBUF,"Loader/Linker error: %s",factory[MODCOUNT+1]->LastError()); return false; } try { if (factory[MODCOUNT+1]->factory) { Module* m = factory[MODCOUNT+1]->factory->CreateModule(MyServer); modules[MODCOUNT+1] = m; /* save the module and the module's classfactory, if * this isnt done, random crashes can occur :/ */ Config->module_names.push_back(filename); char* x = &Config->implement_lists[MODCOUNT+1][0]; for(int t = 0; t < 255; t++) x[t] = 0; modules[MODCOUNT+1]->Implements(x); for(int t = 0; t < 255; t++) Config->global_implementation[t] += Config->implement_lists[MODCOUNT+1][t]; } else { log(DEFAULT,"Unable to load %s",modfile); snprintf(MODERR,MAXBUF,"Factory function failed!"); return false; } } catch (ModuleException& modexcept) { log(DEFAULT,"Unable to load %s: ",modfile,modexcept.GetReason()); snprintf(MODERR,MAXBUF,"Factory function threw an exception: %s",modexcept.GetReason()); return false; } #ifndef STATIC_LINK } else { log(DEFAULT,"InspIRCd: startup: Module Not Found %s",modfile); snprintf(MODERR,MAXBUF,"Module file could not be found"); return false; } #endif MODCOUNT++; FOREACH_MOD(I_OnLoadModule,OnLoadModule(modules[MODCOUNT],filename_str)); // now work out which modules, if any, want to move to the back of the queue, // and if they do, move them there. std::vector put_to_back; std::vector put_to_front; std::map put_before; std::map put_after; for (unsigned int j = 0; j < Config->module_names.size(); j++) { if (modules[j]->Prioritize() == PRIORITY_LAST) { put_to_back.push_back(Config->module_names[j]); } else if (modules[j]->Prioritize() == PRIORITY_FIRST) { put_to_front.push_back(Config->module_names[j]); } else if ((modules[j]->Prioritize() & 0xFF) == PRIORITY_BEFORE) { put_before[Config->module_names[j]] = Config->module_names[modules[j]->Prioritize() >> 8]; } else if ((modules[j]->Prioritize() & 0xFF) == PRIORITY_AFTER) { put_after[Config->module_names[j]] = Config->module_names[modules[j]->Prioritize() >> 8]; } } for (unsigned int j = 0; j < put_to_back.size(); j++) { MoveToLast(put_to_back[j]); } for (unsigned int j = 0; j < put_to_front.size(); j++) { MoveToFirst(put_to_front[j]); } for (std::map::iterator j = put_before.begin(); j != put_before.end(); j++) { MoveBefore(j->first,j->second); } for (std::map::iterator j = put_after.begin(); j != put_after.end(); j++) { MoveAfter(j->first,j->second); } BuildISupport(); return true; } void InspIRCd::DoOneIteration(bool process_module_sockets) { int activefds[MAX_DESCRIPTORS]; int incomingSockfd; int in_port; userrec* cu = NULL; InspSocket* s = NULL; InspSocket* s_del = NULL; unsigned int numberactive; insp_sockaddr sock_us; // our port number socklen_t uslen; // length of our port number /* time() seems to be a pretty expensive syscall, so avoid calling it too much. * Once per loop iteration is pleanty. */ OLDTIME = TIME; TIME = time(NULL); /* Run background module timers every few seconds * (the docs say modules shouldnt rely on accurate * timing using this event, so we dont have to * time this exactly). */ if (((TIME % 5) == 0) && (!expire_run)) { expire_lines(); if (process_module_sockets) { /* Fix by brain - the addition of DoOneIteration means that this * can end up getting called recursively in the following pattern: * * m_spanningtree DoPingChecks * (server pings out and is squit) * (squit causes call to DoOneIteration) * DoOneIteration enters here * calls DoBackground timer * enters m_spanningtree DoPingChecks... see step 1. * * This should do the job and fix the bug. */ FOREACH_MOD(I_OnBackgroundTimer,OnBackgroundTimer(TIME)); } TickMissedTimers(TIME); expire_run = true; return; } else if ((TIME % 5) == 1) { expire_run = false; } if (iterations++ == 15) { iterations = 0; DoBackgroundUserStuff(TIME); } /* Once a second, do the background processing */ if (TIME != OLDTIME) { if (TIME < OLDTIME) WriteOpers("*** \002EH?!\002 -- Time is flowing BACKWARDS in this dimension! Clock drifted backwards %d secs.",abs(OLDTIME-TIME)); if ((TIME % 3600) == 0) { MaintainWhoWas(TIME); } } /* Process timeouts on module sockets each time around * the loop. There shouldnt be many module sockets, at * most, 20 or so, so this won't be much of a performance * hit at all. */ if (process_module_sockets) DoSocketTimeouts(TIME); TickTimers(TIME); /* Call the socket engine to wait on the active * file descriptors. The socket engine has everything's * descriptors in its list... dns, modules, users, * servers... so its nice and easy, just one call. */ if (!(numberactive = SE->Wait(activefds))) return; /** * Now process each of the fd's. For users, we have a fast * lookup table which can find a user by file descriptor, so * processing them by fd isnt expensive. If we have a lot of * listening ports or module sockets though, things could get * ugly. */ log(DEBUG,"There are %d fd's to process.",numberactive); for (unsigned int activefd = 0; activefd < numberactive; activefd++) { int socket_type = SE->GetType(activefds[activefd]); switch (socket_type) { case X_ESTAB_CLIENT: log(DEBUG,"Type: X_ESTAB_CLIENT: fd=%d",activefds[activefd]); cu = fd_ref_table[activefds[activefd]]; if (cu) ProcessUser(cu); break; case X_ESTAB_MODULE: log(DEBUG,"Type: X_ESTAB_MODULE: fd=%d",activefds[activefd]); if (!process_module_sockets) break; /* Process module-owned sockets. * Modules are encouraged to inherit their sockets from * InspSocket so we can process them neatly like this. */ s = socket_ref[activefds[activefd]]; if ((s) && (!s->Poll())) { log(DEBUG,"Socket poll returned false, close and bail"); SE->DelFd(s->GetFd()); socket_ref[activefds[activefd]] = NULL; for (std::vector::iterator a = module_sockets.begin(); a < module_sockets.end(); a++) { s_del = *a; if ((s_del) && (s_del->GetFd() == activefds[activefd])) { module_sockets.erase(a); break; } } s->Close(); DELETE(s); } else if (!s) { log(DEBUG,"WTF, X_ESTAB_MODULE for nonexistent InspSocket, removed!"); SE->DelFd(s->GetFd()); } break; case X_ESTAB_DNS: /* When we are using single-threaded dns, * the sockets for dns end up in our mainloop. * When we are using multi-threaded dns, * each thread has its own basic poll() loop * within it, making them 'fire and forget' * and independent of the mainloop. */ #ifndef THREADED_DNS log(DEBUG,"Type: X_ESTAB_DNS: fd=%d",activefds[activefd]); dns_poll(activefds[activefd]); #endif break; case X_ESTAB_CLASSDNS: /* Handles instances of the Resolver class, * a simple class extended by modules for * nonblocking resolving of addresses. */ dns_deal_with_classes(activefds[activefd]); break; case X_LISTEN: log(DEBUG,"Type: X_LISTEN_MODULE: fd=%d",activefds[activefd]); /* It's a listener */ uslen = sizeof(sock_us); length = sizeof(client); incomingSockfd = accept (activefds[activefd],(struct sockaddr*)&client,&length); if ((incomingSockfd > -1) && (!getsockname(incomingSockfd,(sockaddr*)&sock_us,&uslen))) { in_port = ntohs(sock_us.sin_port); log(DEBUG,"Accepted socket %d",incomingSockfd); /* Years and years ago, we used to resolve here * using gethostbyaddr(). That is sucky and we * don't do that any more... */ NonBlocking(incomingSockfd); if (Config->GetIOHook(in_port)) { try { Config->GetIOHook(in_port)->OnRawSocketAccept(incomingSockfd, inet_ntoa(client.sin_addr), in_port); } catch (ModuleException& modexcept) { log(DEBUG,"Module exception cought: %s",modexcept.GetReason()); } } stats->statsAccept++; AddClient(incomingSockfd, in_port, false, client.sin_addr); log(DEBUG,"Adding client on port %lu fd=%lu",(unsigned long)in_port,(unsigned long)incomingSockfd); } else { log(DEBUG,"Accept failed on fd %lu: %s",(unsigned long)incomingSockfd,strerror(errno)); shutdown(incomingSockfd,2); close(incomingSockfd); stats->statsRefused++; } break; default: /* Something went wrong if we're in here. * In fact, so wrong, im not quite sure * what we would do, so for now, its going * to safely do bugger all. */ log(DEBUG,"Type: X_WHAT_THE_FUCK_BBQ: fd=%d",activefds[activefd]); SE->DelFd(activefds[activefd]); break; } } } int InspIRCd::Run() { /* Until THIS point, ServerInstance == NULL */ LoadAllModules(this); /* Just in case no modules were loaded - fix for bug #101 */ this->BuildISupport(); printf("\nInspIRCd is now running!\n"); if (!Config->nofork) { fclose(stdout); fclose(stderr); fclose(stdin); } /* Add the listening sockets used for client inbound connections * to the socket engine */ for (int count = 0; count < stats->BoundPortCount; count++) SE->AddFd(Config->openSockfd[count],true,X_LISTEN); this->WritePID(Config->PID); /* main loop, this never returns */ expire_run = false; iterations = 0; while (true) { DoOneIteration(true); } /* This is never reached -- we hope! */ return 0; } /**********************************************************************************/ /** * An ircd in four lines! bwahahaha. ahahahahaha. ahahah *cough*. */ int main(int argc, char** argv) { /* TEST SUITE FOR TOKENSTREAM * * Expected output: * * String: 'PRIVMSG #test FOO BAR' * Token 0 = 'PRIVMSG' * Token 1 = '#test' * Token 2 = 'FOO' * Token 3 = 'BAR' * String: 'PRIVMSG #test :FOO BAR BAZ' * Token 0 = 'PRIVMSG' * Token 1 = '#test' * Token 2 = 'FOO BAR BAZ' * String: ':PRIVMSG #test :FOO BAR BAZ' * Token 0 = ':PRIVMSG' * String: 'AAAAAAA' * Token 0 = 'AAAAAAA' * String: '' * NumItems = 0 * std::string a = "PRIVMSG #test FOO BAR"; printf("String: '%s'\n",a.c_str()); irc::tokenstream test(a); printf("Token 0 = '%s'\n",test.GetToken().c_str()); printf("Token 1 = '%s'\n",test.GetToken().c_str()); printf("Token 2 = '%s'\n",test.GetToken().c_str()); printf("Token 3 = '%s'\n",test.GetToken().c_str()); printf("Token 4 = '%s'\n",test.GetToken().c_str()); std::string b = "PRIVMSG #test :FOO BAR BAZ"; printf("String: '%s'\n",b.c_str()); irc::tokenstream test2(b); printf("Token 0 = '%s'\n",test2.GetToken().c_str()); printf("Token 1 = '%s'\n",test2.GetToken().c_str()); printf("Token 2 = '%s'\n",test2.GetToken().c_str()); printf("Token 3 = '%s'\n",test2.GetToken().c_str()); std::string c = ":PRIVMSG #test :FOO BAR BAZ"; printf("String: '%s'\n",c.c_str()); irc::tokenstream test3(c); printf("Token 0 = '%s'\n",test3.GetToken().c_str()); c = "AAAAAAA"; printf("String: '%s'\n",c.c_str()); irc::tokenstream test4(c); printf("Token 0 = '%s'\n",test4.GetToken().c_str()); printf("Token 1 = '%s'\n",test4.GetToken().c_str()); c = ""; printf("String: '%s'\n",c.c_str()); irc::tokenstream test5(c); printf("Token 0 = '%s'\n",test5.GetToken().c_str()); exit(0); */ try { ServerInstance = new InspIRCd(argc, argv); ServerInstance->Run(); DELETE(ServerInstance); } catch (std::bad_alloc) { log(DEFAULT,"You are out of memory! (got exception std::bad_alloc!)"); send_error("**** OUT OF MEMORY **** We're gonna need a bigger boat!"); printf("Out of memory! (got exception std::bad_alloc!"); } return 0; }